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Was the Stray Voltage Really Stray?
Charlie Williams, P.E., C.P.Q.Senior Consultant
Power System ServicesS & C Electric
What is Stray Voltage?
• Not presently defined by IEEE 100• Used extensively in Media• Two Types Proposed
– Category 1: Neutral to earth step or touch voltage from normal steady state operation of the distribution system
– Category 2 : Voltage due to unintentional contact of an energized conductor with a conductive object
What is Stray Voltage?
• This case: Voltage between neutral of the power system and earth
• Convention is Vne• Measure of Stray Voltage
– Open Circuit = Voc = voltage seen with high Z voltmeter
– Closed Circuit = Vne loaded = voltage when an animal or human is in contact between neutral and earth (typically use a 500-1000 ohm load resistor to simulate contact)
What Causes Stray Voltage?
• The neutral carries current and therefore has voltage drop
• Neutral will always be at some voltage relative to earth
• If the voltage is high enough and the source “stiff” enough the body current can be objectionable
What Causes Stray Voltage?
• Primary Cable Neutral Corrosion• Causes increased Vne due to neutral
impedance increase• Significant Issue with older bare concentric
cables (both direct buried and in conduit)
What Causes Stray Voltage?
• Neutral Current Unbalance – creates voltage drop in neutral
• Triplen Harmonics – these currents are additive in neutral – cause voltage drop in neutral
• Perfect 60 hz balance can still have high neutral current when harmonics are present
What Causes Stray Voltage?
• Other sources can elevate earth potential relative to the neutral– Buried low voltage cable with cuts or bare
exposure– Nicked street light cables a mile away have
been found to energize water pipes and the earth near the pipes
Stray Voltage Hazard Levels
• Determined by Open Circuit vs. Closed Circuit Voltage tests
• How?• Loaded test allows calculation of
maximum current• Assumes soil resistance is zero• Uses 500 ohm resistance to simulate body
resistance
Stray Voltage Circuit Representation
VocRs Rbody Rearth
Iloaded
Vloaded+ -
Calculation Example
• Voc = 26 Volts Vloaded = 16 volts• Rload = 500 ohms• I = 16 / 500 = 32 ma• Rs = (26-16)/.032 = 312 ohms• Thevinen Equivalent max current
= 26 / 312 =83 maAssumes no soil resistance
Human Hazard Assessment
• Reference = IEEE 80• 1ma = Perception Threshold• 1 – 6 ma = Let Go (unpleasant)• 9 – 25 ma = No Let Go
– 10.5 ma for women– 16.5 ma for men
• 60ma – 100ma = lethal• The limits are statistical means for a population
and vary with the individual
Where is Stray Voltage a Problem?
• Milking Barns (cows)– Milking machine is grounded – cow is standing on
earth.• Swimming Pools
– entering or exiting pool, humans have simultaneous contact with the deck and pool water, ladders and other fixtures.
– Showers• Human contact with grounded water fixtures while
standing on earth (concrete floor) and drain pipes
Stray Voltage Thresholds
• Varies by person and situation– Can be affected by source impedance ( high
Z source produces little current)• Once sensitized people and animals
complain more• “Let Go” current for 50% of population is
15 ma
Stray Voltage Case Study
Customer experiences shocking in shower
Customer Site Observations
• Customer served from xfmr on dead-end pole
• CATV drop is new cable and not bonded to ground wire at service entrance
• Customer indicated CATV drop replaced about the time shocking started
• Voltage from CATV to neutral was 26 volts!
Check Voltage Levels
• Voc = 26 volts• Vloaded = 16 volts• Rload = 500 ohms• I = (26-10)/500 = 32ma
= 2 * let go current levelRs = 312 ohmsIsc = 26/312 = 83 maThis could be lethal!
Check Neutral currents
• Branch line neutral current at tap = 5 amps• Checks along branch line show neutral
current increasing as we go out on the branch line!
• Neutral current at dead end = 65 amps!• Where is the source of the current???
Y- Delta xfmr bank
B/L
S/L Circuit
In = 55 amps
In = 5 amps
In = 70 amps
1 ph B/L
S/L Circuit
Mysterious Neutral Current
• Dead end of branch line is xfmr station pole and has a secondary drop across the road to a lift pole at the edge of a lake.
• Lift pole has a secondary riser down the pole to a service pedestal. Pedestal serves a boat dock on the lake.
• AHA! – a wire on the dock must be contacting the lake and leaking current into the soil!
Check pedestal Currents
• None – nothing – zip NADA!• Where is the current?• A street light duplex cable circuit goes
north along the lakeshore road.• No street lights are burning• Neutral of street light circuit measures 70
amps!!!!!!
Mysterious Currents Continue
• Investigate street light circuit• 4 spans north the SL hot leg circuit is open• Lights farther out must be served by
another source• Followed SL circuit and it becomes open
wire instead of duplex cable• Source found about 0.5 miles away is a
Y-Delta xfmr bank.
Y-Delta xfmr bank
S/L circuit
Y- Delta xfmr bank
B/L
S/L Circuit
Mysterious Currents Continue!
• Check currents on SL circuit at xfmr• Hot leg has 70 amps• Neutral has nothing!• Following circuit back we find 2 spans of
duplex cable in the middle of an open wire circuit
• Upon inspection and tong ammeter checks the transition from open wire to duplex is reversed!
Mysterious Currents Found!
• During recent storm a tree downed SL circuit
• 2 spans of open wire replaced with duplex cable
• Connections at one end of duplex reversed to open wire conductors
• Hot leg bonded to neutral wire!!!!!
Mysterious Currents Found!
• Loop circuit distance was 0.85 miles• Short circuit calc shows about 100 amps• Current along branch line going to earth at
driven grounds• Results in decreasing neutral wire current
as you get closer to source end of B/L
S/L Circuit Opened
• Vne at customer meter drops from 26 volts to 2 volts
• Source definitely found• S/L circuit wiring corrected• Problem Resolved• CATV drop had burned up when power
restored after storm
Was This Really Stray Voltage?
• No Definition in IEEE 100• Not a temporary fault (wiring error was
permanent)• Not a true neutral to earth voltage from
“normal” system operation• A modified “contact voltage”?
What will the standard cover?
• Touch and Step Voltages due to steady state operation of the distribution system?
• Neutral as well as contact voltages?
Other Issues
• Gas Line Bonding and grounding?• Substation grid potentials• Use of Saturable reactors• Phone & CATV bonding issues• 2005 NEC Code changes for Swimming
Pool Bonding• Third Harmonics are +/- 50% of Neutral
Currents = > Vne
Other Stray Voltage Mitigation
• Reduce Neutral Currents– Balance Loads– Install 3rd Harmonic Filter out on feeder
• Install “Blocker” reactor between primary and secondary neutral systems
• Must separate CATV and phone grounds from power neutral at service entrance
2005 NEC Code Changes
• Section 680.26• New Item on Equipotential Bonding• 12” x 12” Ground Grid required 3 ft out
from Non Bonded Pools
References
• NETRAC Study• EPRI STUDY• IEEE beginning work on standard for stray
voltage• Next S.V. W.G meeting at P.E.S. in
Montreal• C. Williams Chairman
What is Stray Voltage?
• Not presently defined by IEEE 100• Used extensively in Media• Two Types Proposed
– Category 1: Neutral to earth step or touch voltage from normal steady state operation of the distribution system
– Category 2 : Voltage due to unintentional contact of an energized conductor with a conductive object
Charles W. Williams Jr., P.E., C.P.Q.Concept Consultant
Power Systems ServicesS&C Electric
Stray Voltage Standards Websitehttp://grouper.ieee.org/groups/td/dist/stray/